1. Congenital Heart Defects Functional Overview
Dr. Yasser Salem

3. Objectives Obstructive lesions right or left Mixing lesions
Shunt lesions left to right or right to left
Univentricular physiology
Miscellaneous
Anomalies of coronary arteries
Vascular ring

4. Obstructive cardiac lesions
Acyanotic
Cyanotic

5. Obstructive cardiac lesions
low OXYGEN
Enough blood, just not enough oxygen in the blood
COMPLEX CARDIAC LESIONS = MIXING LESIONS
low BLOOD
Enough oxygen, just not enough blood flow
OBSTRUCTIVE CARDIAC LESIONS
COMBINATION

6. Left sided obstructive lesions

7. Left sided obstructive lesions
Increased flow
Backward effects
Pulmonary venous congestion
Increase RV afterload
RV hypertrophy and failure
Systemic venous congestion
Forward effects
Decrease peripheral tissue perfusion
Decrease coronary perfusion
Myocardial ischemia

9. Left sided obstructive lesion
Aortic stenosis
Subvalvular (SAM, Pompe)
Valvular congenital stenosis
Supravalvular (Aortic coarc., hypoplastic arch)
Mitral stenosis
Subvalvular (Shone’s)
Supravalvular (core triatriatum)

11. Shone’s anomaly

12. Core triatriatum

13. Left sided obstructive lesion
Hypoplastic left heart syndrome (HLHS)
Tricuspid atresia with transposed great arteries
Double-inlet left ventricle
IAA
DORV (some variations)

15. Right sided obstructive lesions

16. Right sided obstructive lesions
Backward effects
Pulmonary venous congestion
Increase RV afterload
RV hypertrophy and failure
Systemic venous congestion
Forward effects
Decrease peripheral tissue perfusion
Decrease coronary perfusion
Myocardial ischemia
Decrease pulmonary perfusion (lung oligemia)
CYANOSIS

17. Right sided obstructive lesions
Tricuspid atresia
Pulmonary atresia with IVS
TOF with pulmonary atresia
Severe Ebstein’s anomaly of the tricuspid valve
Critical PS
DORV (some variations)

19. sided obstructive lesion
Right
Left
Pulmonary stenosis
Aortic stenosis
Subvalvular (SAM, Pompe)
Valvular congenital stenosis
Supravalvular (Aortic coarc., hypoplastic arch)
Mitral stenosis
Subvalvular (Shone’s)
Supravalvular (core triatriatum)
Tricuspid stenosis

20. Right sided obstructive lesion
Pulmonary stenosis
Subvalvular (Fallot’s tetralogy)
Valvular congenital stenosis or atresia
Supravalvular (hypoplastic pulmonary arteries)
Tricuspid stenosis
Subvalvular (DCRV, Ebestien)
Valvular congenital stenosis
Supravalvular (eustachian valve)

22. Eustachian valve

23. Double Chamber Right Ventricle (DCRV)

25. Mixing lesions
Defects with mixing of oxygenated and deoxygenated blood
Partial desaturation lead to compensatory in red cell mass and increase 2,3 DPG with increase in blood viscosity.

26. Left sided obstructive lesions
Hypoplastic left heart syndrome (HLHS)
Tricuspid atresia with transposed great arteries
Double-inlet left ventricle
IAA
DORV (some variations)

27. Left sided obstructive lesions
Complete mixing of systemic and pulmonary venous return
Ventricular outflow directed primarily to the PA
Systemic blood flow (Qs)
Largely by right-to-left ductal shunting
Dependent on the relative PVR and SVR
Systemic outflow obstruction is poorly tolerated
Usually accompanied by signs or symptoms of shock

28. Left sided obstructive lesions
Maintain preload at maximum
Maintain afterload at maximum
Maintain contractility in neonates at maximum
Maintain below maximum contractility in older patients
Relative bradycardia is preferred not in neonates
Quick guide to pediatric cardiopulmonary care, edwards

29. Right sided obstructive lesions

30. Right sided obstructive lesions
Tricuspid atresia
Pulmonary atresia with IVS
TOF with pulmonary atresia
Severe Ebstein’s anomaly of the tricuspid valve
Critical PS
DORV (some variations)

31. Right sided obstructive lesions
Complete mixing of systemic and pulmonary venous return
Ventricular outflow predominantly directed out the aorta
Low pulmonary blood flow (Qp) in single-ventricle patients implies an obligate right-to-left shunt (generally atrial level)
Clinical consequences of low Qp are variable

33. Adjust PVR SVR balance to gain optimal oxygen delivery
Mixing lesions
Qp/Qs dependent upon PVR SVR balance
Hypoxemia and its consequences
Adjust PVR SVR balance to gain optimal oxygen delivery

34. Obstructive lesions Qp decreased Hypoxemia RV hypertrophy
RV dysfunction TR
Qs decreased
Low CO
Hypotension
Coronary perfusion decreased
LV failure
Avoid SVR decrease
Maintain preload
Maintain PDA patency
Avoid increase PVR
Hyperoxia
Hypoventilation
Avoid decrease PVR
Relative hypoxia
Relative hypercarbia

35. Objectives Obstructive lesions right or left Mixing lesions
Shunt lesions left to right or right to left
Univentricular physiology
Miscellaneous
Anomalies of coronary arteries
Vascular ring

36. Shunt lesions Shunts may intracardiac or extracardiac
Large shunts are non restrictive with low pressure gradient across
Small shunts are restrictive with high pressure gradient across

37. Left to right shunt Factors affecting shunt flow
Ventricular or
Great artery level
Atrial level
Relative compliance
Right vs Left ventricle
Pressure gradient between
chambers or arteries
Size of defect
Ratio of
PVR to SVR
Blood viscosity

38. Left to right shunt Pathology of shunt flow
Atrial or ventricular shunts
Great artery
shunts
All shunts
↑RV filling
↑Pulmonary blood flow
↑LA and LV blood flow
↓Diastolic BP
↓Coronary
perfusion pressure
↑RVEDV and ↑RVEDP
Pulmonary edema
↑LVEDV and ↑LVEDP
RV failure
↑PVR
Myocardial ischemia
LV failure
Pulmonary hypertension
Shunt reversal
Eisenmenger’s syndrome
RV hypertrophy
Pressure RV > LV

39. Left to right shunt Pathology of shunt flow
Avoid decrease in PVR
Enhance the use of vasoconstrictors
Avoid increase in pulmonary flow
Avoid decrease in systemic flow
Avoid extensive diastolic hypotension
Avoid increase in total blood volume

41. Pulmonary artery banding

42. Pulmonary artery banding
Good banding
High pressure gradient across band by echo
Non-congested lung fields

43. Objectives Obstructive lesions right or left Mixing lesions
Shunt lesions left to right or right to left
Univentricular physiology
Miscellaneous
TGA
Anomalies of coronary arteries
Vascular ring

44. Transposition of great arteries
Mixing is mandatory for life
Left ventricle mass and
function
Coronary anatomy

45. Coronary Anomalies
ALCAPA

46. Vascular ring

47. Vascular ring
AIR

50. Determinants of cardiac output
preload
Afterload
Heart rate
CNTRACTILITY
CARDIAC OUTPUT
Arterial O2 content
OXYGEN DELIVERY
OXYGEN extraction
Venous saturation

51. Demons Angels Septal aneurysm Persistent left SVC Interrupted IVC
Restrictive VSD
High pressure gradient across VSD
Law pressure gradient across left or right obstructive lesions
Atralization of the RV
Parachute mitral valve
Interrupted aortic arch
Non-restrictive VSD
Law pressure gradient across VSD
High pressure gradient across left or right obstructive lesions